Expert review of the science underlying nature-based climate solutions

被引:0
|
作者
B. Buma
D. R. Gordon
K. M. Kleisner
A. Bartuska
A. Bidlack
R. DeFries
P. Ellis
P. Friedlingstein
S. Metzger
G. Morgan
K. Novick
J. N. Sanchirico
J. R. Collins
A. J. Eagle
R. Fujita
E. Holst
J. M. Lavallee
R. N. Lubowski
C. Melikov
L. A. Moore
E. E. Oldfield
J. Paltseva
A. M. Raffeld
N. A. Randazzo
C. Schneider
N. Uludere Aragon
S. P. Hamburg
机构
[1] Environmental Defense Fund,Department of Integrative Biology
[2] University of Colorado,Department of Biology
[3] University of Florida,International Arctic Research Center
[4] Resources for the Future,Department of Ecology Evolution and Environmental Biology and the Climate School
[5] University of Alaska,Faculty of Environment, Science and Economy
[6] Columbia University,Department of Engineering and Public Policy
[7] The Nature Conservancy,O’Neill School of Public and Environmental Affairs
[8] University of Exeter,Department of Environmental Science and Policy
[9] Laboratoire de Météorologie Dynamique/Institut Pierre-Simon Laplace,Department of Marine Chemistry & Geochemistry
[10] CNRS,Department of Atmospheric and Oceanic Sciences
[11] Ecole Normale Supérieure/Université PSL,Numerical Terradynamic Simulation Group
[12] Sorbonne Université,undefined
[13] Ecole Polytechnique,undefined
[14] National Ecological Observatory Network,undefined
[15] Battelle,undefined
[16] Carnegie Mellon University,undefined
[17] Indiana University,undefined
[18] University of California,undefined
[19] Woods Hole Oceanographic Institution,undefined
[20] University of Wisconsin-Madison,undefined
[21] AtmoFacts,undefined
[22] Lombard Odier Investment Managers,undefined
[23] Ecological Carbon Offset Partners LLC,undefined
[24] dba EP Carbon,undefined
[25] ART,undefined
[26] NASA/GSFC,undefined
[27] University of Maryland,undefined
[28] University of Montana,undefined
来源
Nature Climate Change | 2024年 / 14卷
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学科分类号
摘要
Viable nature-based climate solutions (NbCS) are needed to achieve climate goals expressed in international agreements like the Paris Accord. Many NbCS pathways have strong scientific foundations and can deliver meaningful climate benefits but effective mitigation is undermined by pathways with less scientific certainty. Here we couple an extensive literature review with an expert elicitation on 43 pathways and find that at present the most used pathways, such as tropical forest conservation, have a solid scientific basis for mitigation. However, the experts suggested that some pathways, many with carbon credit eligibility and market activity, remain uncertain in terms of their climate mitigation efficacy. Sources of uncertainty include incomplete GHG measurement and accounting. We recommend focusing on resolving those uncertainties before broadly scaling implementation of those pathways in quantitative emission or sequestration mitigation plans. If appropriate, those pathways should be supported for their cobenefits, such as biodiversity and food security.
引用
收藏
页码:402 / 406
页数:4
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